Intro to the Nervous System Final - MECH14mech14.weebly.com/uploads/6/1/0/6/61069591/intro... ·...
Transcript of Intro to the Nervous System Final - MECH14mech14.weebly.com/uploads/6/1/0/6/61069591/intro... ·...
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Why study the brain?
Basic Science – understanding “how the brain works” – from molecules to mind
Being an engineer – we are always attracted by real world applications
Medical point of view Autism, Schizophrenia, Parkinson’s, Alzheimer’s, Epilepsy, Cerebral Palsy – Disease and Cure
Engineer’s point of view Neural Prostheses: Cochlear Implants, Hearing Aids, Artificial Retina, Sensor Development, Brain Computer Interface, Robotics, Artificial Intelligence
The brain is unparalleled as a computer - an unique machine Brain based Algorithms: “Pattern” Recognition and “Pattern” Learning “Pattern” – can be in any one or combinations of sensory space(s) – generalizes to even cognitive space?
Architecture – Rules of connectivity (Recognition) and Rules of Changes in Connectivity (Learning) – It is the nature of connections and how they adapt is what determines the function
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Ways to measure “activity” in the brain Activity: What is activity – membrane potential, spike trains (series of action potentials) Hodgkin-Huxley described the process mathematically
Direct and Indirect Measures - EEG, fMRI, BOLD-signal, single unit, multi-channel, patch-clamp, Ca-imaging – high resolution
FMRI EEG SINGLE UNIT WHOLE CELL
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Ways to measure “activity” in the brain
In-vivo 2-photon Calcium Imaging
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Basic Divisions of the Nervous System
Central nervous system (“CNS”) – occupies cranium and vertebral column Brain Spinal cord
Peripheral nervous system (“PNS”) Cranial nerves Spinal nerves Ganglia (clusters of cell bodies)
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Basic Divisions of the Nervous System
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The Spinal Cord
Foramen magnum to L1 or L2 Runs through the vertebral canal of the vertebral column
Functions 1. Sensory and motor innervation of entire body inferior to the head
through the spinal nerves 2. Two-way conduction pathway between the body and the brain 3. Major center for reflexes
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The Spinal Cord: Gray/White in spinal cord
Hollow central cavity (“central canal”) Gray matter surrounds cavity White matter surrounds gray matter (white:
ascending and descending tracts of axons) “H” shaped on cross section Dorsal half of “H”: cell bodies of interneurons Ventral half of “H”: cell bodies of motor neurons No cortex (as in brain)
Dorsal (posterior)
white
gray
Ventral (anterior)
Central canal______
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The Spinal Cord
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Spinal Cord: Reflex arcs - monosynaptic or polysynaptic
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White matter of the spinal cord (myelinated and unmyelinated axons)
Ascending fibers: sensory information from sensory neurons of body up to brain
Descending fibers: motor instructions from brain to spinal cord Stimulates contraction of body’s muscles Stimumulates secretion from body’s glands
Commissural fibers: white-matter fibers crossing from one side of cord to the other
Most pathways cross (or decussate) at some point Most synapse two or three times along the way, e.g. in brain stem, thalamus or
other
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The Organization of the Sympathetic Division of the ANS
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The Organization of the Parasympathetic Division of the ANS
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The Organization of the Somatic Nervous System
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Neurons: The Basic Functional and Computational Units
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GLIA: “Supporting” cells
Neuroglia usually refers to CNS ones
Just “glia” to both Divide throughout life Smaller and darker than neurons Outnumber neurons 10 to 1
Astrocytes Star shaped; the most numerous Involved in metabolism & synapse formation
Microglia Phagocytes
Ependymal cells Line the cavities of CNS and spinal cord; cilia
Oligodendrocytes Produce myelin sheaths in CNS (see later slide)
In the PNS:
Satellite cells Surround neuron cell body
Schwann cells Form myelin in PNS
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Physiological Processes in the Neuron
How do neurons integrate (compute) and transmit information
so that we function in a seamless manner
in a rapidly changing dynamic environment –
- by perceiving information and - taking appropriate actions
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Cellular Steady State
Na+, Ca2+ and Cl- concentrations are high outside and low inside the cell K+ concentration is low outside and high inside the cell
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Membrane: Lipid Bilayer
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Membrane: Lipid Bilayer
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Membrane: Lipid Bilayer
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Membrane: Ion Channels The funct ion of the ion channel is to provide a hydrophylic pore inside the membrane. In the simplest model, we can imagine a two-step process: 1. Dehydration of the ion
and binding to a polarized negatively charged site in the channel pore
2. Rehydration of the ion in the opposite solution
The energy of dehydration of the ion is provided by the binding energy to the site in the channel.
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Membrane: Ion Channels
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Gating of Ion Channels
Gating refers to the fact that channels change their conductance state, from open to closed or closed to open. The transitions occur sharply over very fast time scales. Generally gating is influenced by membrane potential (voltage gated) or by some ligand (ligand gated). In the above example the channel is more likely open as the Ca2+ concentration increases
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Membrane: Ion Channels (Ligand Gated, Voltage Gated)
Ligand Gated
Voltage Gated
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Electrochemical Potential
Equilibrium: Nernst Equation
Equivalent Electrical Circuit
At Equilibrium
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Hodgkin Huxley Model: Spiking of Neurons
minf, hinf,and ninf values give the steady state values at a particular V and time Constants quantify how fast the steady state value is reached.
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Hodgkin Huxley Model: Spiking of Neurons
Note the differences in the scales of the time constants for m, h and n; also the differences in minf and hinf functions. m and h are the activation and inactivation variables for Na+ channels and n is the activation variable for K+ channels. Na+ channels allow Na-ions to flow into the cell and hence depolarize the cell (increase the potential inside from resting state) K+ channels allow K-ions to flow out of the cell and hence hyperpolarize the cell (lower the potential inside from resting state)
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Hodgkin Huxley Model: Spiking of Neurons
Rising phase of the action potential is from opening of Na+ channels -increases in inside potential – further increases in Na+ channels … and so on. Until inactivation of Na+ channels start – which reduces opening of Na+
and Opening of K+ channel which repolarizes the cell.
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Transmission through Dendrites (Passive)
The description of voltage as a function of space/position (x) and time (t)
Injection of current at a certain location (synaptic input) on the dendrite induces a change in membrane potent ia l V (increase or decrease = Excitatory or Inhibitory postsynaptic potential, EPSP or IPSP) – the equation when solved with the boundary condition of current injection then shows how the change propagates through the dendrite (x) over time (t).
For passive flow along dendrite (without ion channels) the current across the membrane is simply through fixed conductance (Iion=gV)
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Transmission through Dendrites (Active)
For active flow along dendrite (with ion channels) the current across the membrane is again modeled in the same way with incorporation of voltage or ligand gated ion channels with conductances that vary based on properties of the ion channels.
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Dendritic Integration to Spiking Output
Numerous synaptic inputs of different types coming in to different locations in the dendrites (spines or even cell body) of a neuron. The net effect of all such inputs after propagation to the cell body determines whether a neuron will spike in response to such inputs or not.
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Transmission through Axons Myelin
Lipoprotein Increases speed of conduction,
large axons Are “insulation” Prevent leakage of electric
current Layers with spaces (nodes of
Ranvier) between cells Impulse “jumps” from node to
node “Unmyelinated” axons –
smaller, slower
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Synapses
Junctions between neurons Information is passed (usually chemically) Unidirectional Presynaptic (toward synapse) vs postsynaptic (away from synapse): most
neurons function as both Synaptic cleft (tiny gap) Often synapses form on tiny mushroom like bodies on dendrites called
spines
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Synapses
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Neurons can synapse with:
1. Neurons
2. Muscle
3. Glands
Synapses
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Two principal kinds of synapses: electrical and chemical
Synapses
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Gap junctions are formed where hexameric pores called connexons connect with one between cells
Electrical synapses are built for speed
Electrical coupling is a way to synchronize neurons with one another
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Contrast with chemical synapse
Delay of about 1 ms
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Chemical synapses: the predominant means of communication between neurons
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The Synaptic Vesicle Cycle
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Criteria that define a neurotransmitter: 1. Must be present at presynaptic terminal 2. Must be released by depolarization, Ca++-dependent 3. Specific receptors must be present
Neurotransmitters
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Neurotransmitters
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Neurotransmitters: Glutamate Receptors
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Neurotransmitters: GABA Receptors
GABA receptor are essentially chloride channels. There are binding sites on the outside region of the receptor. When GABA binds to the receptor, the protein structure in the inside go through a conformational change to open up and allow Cl- to flow into the cell down an electrochemical gradient. Cl- flow into the cell hyperpolarizes the cell and hence has an inhibitory effect
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Equivalent Circuit Model with Synapses
Inclusion of synaptic inputs on to a neuron can be modeled as additional currents (new trans-membrane current b r a n c h e s ) t h a t h a v e s y n a p t i c conductances which change based on the membrane potential or ligand concentration and are activated when there is a pre-synaptic action potential.
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Adaptation – the KEY Plasticity and Different Time scales of plasticity
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Adaptation – the KEY Plasticity and Different Time scales of plasticity
Variety of changes and variety of time scales: size of spines, number spines, location of spines, removal and reduction of spines. All these make change in synaptic connections between neurons possible
Increases or decreases in concentration of neurotransmitter receptors can also occur at fast time scales allowing change in synaptic strength
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Adaptation – the KEY Plasticity and Different Time scales of plasticity
Activity Regulated Spike Timing Dependent Plasticity
Δg/g
Δt
Pre spike time – Post spike time
gnew=gold(1+Δg/gold)
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Basic Neural Systems: How is it all put together? Organization of the Brain – Different Systems
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Parts of Brain
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Cerebral hemispheres and lobes
Divided by longitudinal fissure into right & left sides
Central sulcus divides frontal from parietal lobes
Lateral sulcus separates temporal lobe from parietal lobe
Parieto-occipital sulcus divides occipital and parietal lobes (not seen from outside)
Transverse cerebral fissure separates cerebral hemispheres from cerebellum
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Sensory areas Posterior to central sulcus
• Primary somatosensory cortex: postcentral gyrus of parietal lobe (allows conscious awareness of sensation and the ability to localize it: where the sensation is from)
• Somatosensory association area: behind it (understanding of what is being felt: the meaning of it)
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Sensory Areas: Somatosensory Pathway and Receptive Fields
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• Sight: occipital lobe – Primary visual cortex (17)
• Handles info from contralateral retina (right ½ of visual field is on left side)
• Map of visual space • If damaged: functionally blind
because no conscious awareness of sight
– Visual association area (18 & 19) • Face recognition is usually on
the right side
• Hearing: temporal lobe – Primary auditory area (41) – Auditory association area (22)
Sensory areas Posterior to central sulcus
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Sensory Areas: Auditory and Visual Pathways
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Sensory Areas: Auditory and Visual Receptive Fields Retinotopy Tonotopy
Orientation Tuning
Spectrotemporal Tuning
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Motor areas Anterior to central sulcus
• Primary motor area – Precentral gyrus of frontal lobe (4) – Conscious or voluntary movement of skeletal muscles
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• Primary motor area continued – Precentral gyrus of frontal lobe – Precise, conscious or voluntary movement of skeletal muscles – Large neurons called pyramidal cells – Their axons: form massive pyramidal or corticospinal tracts
• Decend through brain stem and spinal cord • Cross to contralateral (the other) side in brainstem • Therefore: right side of the brain controls the left side of the
body, and the left side of the brain controls the right side of the body
Motor areas Anterior to central sulcus
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Homunculus – “little man”
Body map: human body spatially represented Where on cortex; upside down
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Prefrontal cortex: cognition
Executive functioning e.g. multiple step problem solving
requiring temporary storage of info (working memory)
This area is remodeled during adolescence until the age of 25 and is very important for well-being; it coordinates the brain/body and inter-personal world as a whole
Social skills Appreciating humor Conscience Mood Mental flexibility Empathy
Intellect Abstract ideas Judgment Personality Impulse control Persistence Complex Reasoning Long-term planning
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Association Areas
Association areas: everything else • Tie together different kinds of sensory input • Associate new input with memories • Is to be renamed “higher-order processing“ areas
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